Multicylinder engine

Abstract

A multicylinder engine includes a plurality of intake ports, a plurality of in-cylinder injectors, and an electronic control unit. The electronic control unit is configured to initially set a value of a control parameter of the multicylinder engine, individually for each of the cylinders, such that there is a common regularity between a distribution among the cylinders, of a difference of the value of the control parameter of each of the cylinders from the value of the control parameter of a reference cylinder, and a distribution among the cylinders, of a difference of the distance of a narrowed portion of each of the cylinders from the distance of the narrowed portion of a reference cylinder. The control parameter is a parameter that determines an air-fuel ratio of an air-fuel mixture around an ignition plug at a time of ignition in stratified charge combustion operation.

Description

INCORPORATION BY REFERENCE[0001]The disclosure of Japanese Patent Application No. 2015-093398 filed on Apr. 30, 2015 including the specification, drawings and abstract is incorporated herein by reference in its entirety.BACKGROUND OF THE INVENTION[0002]1. Field of the Invention[0003]Embodiments of the present invention relate to a multicylinder engine having a plurality of cylinders, and in particular to a multicylinder engine in which each cylinder is provided with an intake port with a throat having a narrowed portion that produces tumble flow in a combustion chamber.[0004]2. Description of Related Art[0005]Air-guided stratified charge combustion is known. For this type of combustion, tumble flow is produced in a combustion engine, and fuel is injected from an in-cylinder injector against the tumble flow, so that the penetration force of fuel spray in the combustion chamber is controlled, and a layer of an air-fuel mixture having a high fuel concentration is formed around an ignit...

AI Technical Summary

Benefits of technology

This approach ensures uniform combustion conditions across all cylinders by adjusting control parameters based on the unique geometry of each intake port, reducing variations in tumble flow strength and enhancing ignition performance from the outset, thereby minimizing combustion inconsistencies.

Problems solved by technology

However, if the tumble flow and the fuel spray are not balanced with each other, intended ignition performance and combustion quality cannot be obtained.

This is because, if the penetration force of the fuel spray is relatively weak with respect to the strength of the tumble flow, the air-fuel mixture does not sufficiently reach the ignition plug by the ignition timing.

Further, in a multicylinder engine such as an internal combustion engine for an automobile, the degree of imbalance between the tumble flow and the fuel spray is likely to differ among the cylinders, which results in variations in combustion among the cylinders.

One reason why the degree of imbalance between the tumble flow and the fuel spray differs among the cylinders in a multicylinder engine is an error in shape of an intake port of each cylinder.

However, it is difficult to completely fix the cores during pouring, and a slight displacement or misalignment may arise between the core of the intake port and the core of the combustion chamber.

Therefore, the strength of the tumble flow varies among the cylinders, and, consequently, the degree of imbalance between the tumble flow and fuel spray differs among the cylinders.

Also, in the case of an engine in which stratified charge combustion operation is only performed temporarily (e.g., an engine in which stratified charge combustion operation is performed only during start-up for the purpose of warm-up of a catalyst), there may not be sufficient time to check the balance as described above.

Therefore, with the technology described in JP 2002-276421 A, variations in combustion among the cylinders due to the imbalance between the tumble flow and the fuel spray may still occur, at least for a while after the engine leaves the production line.

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